Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

How can I make a histogram in which the center of each bar lies along a common axis? This would look like a violin plot with step-shaped edges.

I'd like to do this in Lattice, and don't mind customizing panel functions, etc., but would be happy to use base R graphics or even ggplot2. (I haven't yet thrown myself into ggplot2, but will take the plunge at some point.)

(Why do I want to do this? I think it might be a useful replacement for a violin plot when data is discrete and occurs at a few [5-50] evenly-spaced numeric values. Each bin then represents a point. Of course, I could just generate a normal histogram. But I think that sometimes it's useful to display both a box-and-whisker plot and a violin plot. With discrete data at regular intervals, a symmetrical histogram with the same orientation as a boxplot allows comparison of the detailed structure of the data with the boxplot, just as a violin plot does. In this case the symmetrical histogram could be more informative than a violin plot. (A beanplot might be another alternative for what I just described, although in fact my data is not literally discrete--it just converges to near a series of regular values. This makes R's beanplot package less useful for me, unless I normalize the values by mapping them to the nearest regular value.))

Here is a 30-observation subset of some of the data, which is generated by an agent-based simulation:

df30 <- data.frame(crime.v=c(0.2069526, 0.2063516, 0.06919754,
0.2080366, -0.06975912, 0.206277, 0.3457634, 0.2058985, 0.3428499,
0.3428159, 0.06746109, -0.07068694, 0.4826098, -0.06910966, 0.06769761,
0.2098732, 0.3482267, 0.3483602, 0.4829777, 0.06844112, 0.2093492,
0.4845478, 0.2093505, 0.3482845, 0.3459249, 0.2106339, 0.2098397,
0.4844956, 0.2108985, 0.2107984), bias=c("beast", "beast", "beast",
"beast", "beast", "beast", "beast", "beast", "beast", "beast", "beast",
"beast", "beast", "beast", "beast", "virus", "virus", "virus", "virus",
"virus", "virus", "virus", "virus", "virus", "virus", "virus", "virus",
"virus", "virus", "virus"))

A dataframe named df with a full set of 600 observations in an Rdata file can be downloaded from this link: CVexample.rdata.

The crime.v values are all near one of the following, which I'll call foci:

[1] -0.89115386 -0.75346155 -0.61576924 -0.47807693 -0.34038463 -0.20269232 -0.06500001
[8]  0.07269230  0.21038460  0.34807691  0.48576922  0.62346153  0.76115383  0.89884614

(The crime.v values are actually averages of 13 variables, whose values can range from -1 to 1, but which end up converging to values which are in the neighborhood of .9 or -.9. Averages of 13 values at around .9 or -.9 are somewhat near the foci. In practice I determined appropriate values for the foci by examining the data, since there's some additional variation involved.)

A violin plot can be produced with:

bwplot(crime.v ~ bias, data=df30, ylim=c(-1,1), panel=panel.violin)

If you run this with the larger dataset, you'll see that one of the violin plots produced is multimodal, while the other isn't. However, this doesn't seem to reflect a difference in the data underlying the two violin plots; it's an artifact due to the locations of the foci in relation to the plot, as far as I can tell. I can smooth away the difference by tweaking the parameters of density passed to panel.violin, but it would be clearer to just represent how many points there are in each cluster.


share|improve this question
Have you tried starting with this and manipulating to fit your needs? – Ricardo Saporta Apr 6 '13 at 4:13
No, but thank you for that very informative page. I may try that. (Looks like ggplot documentation is easier to use in some ways than lattice documentation--which is not a criticism of lattice.) – Mars Apr 6 '13 at 4:28
For this case, sample data would be really useful. As it sounds quite interesting. – Henrik Apr 6 '13 at 8:33
@Henrik: I've added data now. – Mars Apr 6 '13 at 19:24
up vote 6 down vote accepted

Here is one possibility using base graphics:

tmp <- tapply( iris$Petal.Length, iris$Species, function(x) hist(x, plot=FALSE) )
tmp.r <- range, lapply(tmp, `[[`, 'breaks') )
plot.window(xlim=c(1/2,length(tmp)+1/2), ylim=tmp.r)

for( i in seq_along(tmp) ) {
    h <- tmp[[i]]
    rf <- h$counts/sum(h$counts)
    rect( i-rf/2, head(h$breaks, -1), i+rf/2, tail(h$breaks, -1) )

axis(1, at=seq_along(tmp), labels=names(tmp))

You can tweak the different parts to your preferences and the whole thing could easily be wrapped into a function.

share|improve this answer
Wow. Beautiful, Greg. Thank you for putting together the whole package. (For anyone glancing at Greg's answer quickly, the crucial steps are in the construction of the rectangles inside the for loop.) – Mars Apr 6 '13 at 18:40
I am going to see if I can use the same basic idea to construct a similar plot using panel.rect in Lattice. – Mars Apr 6 '13 at 19:26
I had not known until now how to get some Lattice-ey effects from base graphics in a systematic way. Thank you for that. – Mars Apr 6 '13 at 19:48
Lattice panel function version starting from Greg Snow's code seems to be working now, but needs refinement. Will post as answer when ready. – Mars Apr 8 '13 at 5:13

Here is a Lattice panel function based on @GregSnow's answer using base graphics. I couldn't have done it without Greg providing a solid starting point, so all credit goes to Greg. My panel function is not very sophisticated, and could very well break on something simple, but will handle horizontal and vertical orientations, and allows you to supply a vector of breaks or leave it out. It also removes bins on the ends that are empty. The panel function uses hist's default behavior for breaks rather than histogram's, which is more complicated. Comments about better methods are welcome.

Since symmetric or centered histograms don't have an existing name, as far as I know, and they're reminiscent of a Tower of Hanoi toy, perhaps they should be called "Tower of Hanoi histograms". Thus the function is called panel.hanoi.

Simple usage example using the definition of df30 above:

bwplot(crime.v ~ bias, data=df30, panel=panel.hanoi)

Here is a more complex example using data provided in the link in the question (graphic at end of answer).

bwplot(crime.v ~ bias, data=df, ylim=c(-1,1), pch="|", coef=0, panel=function(...){panel.hanoi(col="pink", breaks=cv.ints, ...); panel.bwplot(...)})

This example adds ylim to specify that the plot should go from -1 to 1, and overlays a bwplot on top of the Hanoi plot. pch and coef affect the appearance of the bwplot. The example also uses the following definition to center each box of the Hanoi plot around the locations where my data points tend to lie (see original question):

cv.ints <- c(-1.000000000, -0.960000012, -0.822307704, -0.684615396, -0.546923088, -0.409230781, -0.271538473, -0.133846165, 0.003846142, 0.141538450, 0.279230758, 0.416923065, 0.554615373, 0.692307681, 0.829999988, 0.967692296, 1.000000000)

Here is the panel function:

panel.hanoi <- function(x, y, horizontal, breaks="Sturges", ...) {  # "Sturges" is hist()'s default

  if (horizontal) {
    condvar <- y # conditioning ("independent") variable
    datavar <- x # data ("dependent") variable
  } else {
    condvar <- x
    datavar <- y

  conds <- sort(unique(condvar))

  # loop through the possible values of the conditioning variable
  for (i in seq_along(conds)) {

      h <- hist(datavar[condvar == conds[i]], plot=F, breaks) # use base hist(ogram) function to extract some information

    # strip outer counts == 0, and corresponding bins
    brks.cnts <- stripOuterZeros(h$breaks, h$counts)
    brks <- brks.cnts[[1]]
    cnts <- brks.cnts[[2]]

    halfrelfs <- (cnts/sum(cnts))/2  # i.e. half of the relative frequency
    center <- i

    # All of the variables passed to panel.rec will usually be vectors, and panel.rect will therefore make multiple rectangles.
    if (horizontal) {
      panel.rect(head(brks, -1), center - halfrelfs, tail(brks, -1), center + halfrelfs, ...)
    } else {
      panel.rect(center - halfrelfs, head(brks, -1), center + halfrelfs, tail(brks, -1), ...)

# function to strip counts that are all zero on ends of data, along with the corresponding breaks
stripOuterZeros <- function(brks, cnts) {"stripLeftZeros", stripRightZeros(brks, cnts)) }

stripLeftZeros <- function(brks, cnts) {
  if (cnts[1] == 0) {
    stripLeftZeros(brks[-1], cnts[-1])
  } else {
    list(brks, cnts)

stripRightZeros <- function(brks, cnts) {
  len <- length(cnts)
  if (cnts[len] ==0) {
    stripRightZeros(brks[-(len+1)], cnts[-len])
  } else {
    list(brks, cnts)

Tower of Hanoi histograms with overlaid bwplots

share|improve this answer
I am unable to replicate the images from your script can you recheck if everything is correct. The figures look very interesting and I would like to try for some data and see how useful the images can be. Can you modify your script and add few steps so that it can be useful. (when i copy your script for the above data i get an empty graph with error saying Error using packet 1 could not find function "butlast"). – bala Apr 26 '13 at 23:14
It's fixed now. I replaced two utility functions I defined elsewhere, butlast and butfirst, with their definitions in terms of head and tail. Sorry about that, and thank you for asking, @bala. I also modified the first example slightly, and added comments to clarify how the second, more complex example works. – Mars Apr 28 '13 at 4:55

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.